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IT ELETTROPOMPA AUTOADESCANTE A CANALE LATERALE Manuale d’uso e manutenzione ................................................................................................................ pag. 5
FR POMPE AUTO-AMORÇANTE À CANAL LATÉRAL Manuel d’instructions et d’entretien .................................................................................................... page 13
GR ΑΥΤΟΠΛΗΡΟΥΜΕΝΗ ΑΝΤΛΙΑ ΜΕ ΠΛΕΥΡΙΚΟ ΚΑΝΑΛΙ Οδηγίες χρήσης και συντήρησης .......................................................................................................... σελ. 21
DE SELBSTSAUGENDE PUMPE MIT SEITLICHEM KANAL Gebrauchs- und Wartungsanweisungen .......................................................................................... Seite 29
NL ZELFAANZUIGENDE POMP MET ZIJKANAAL Handleiding voor gebruik en onderhoud ........................................................................................... pag. 37
GB SIDE CHANNEL SELF-PRIMING PUMP User and maintenance manual ............................................................................................................. page 45
ES BOMBA AUTOCEBANTE DE CANAL LATERAL Manual de uso y mantenimiento .......................................................................................................... pág. 53
CZ SAMONASÁVACÍ ČERPADLO S POSTRANNÍM VTOKEM Návod k obsluze a údržbě .......................................................................................................................... str. 61
SL SAMOSESALNA ČRPALKA S STRANSKIM KANALOM Priročnik za uporabo in vzdrževanje ....................................................................................................... str. 69
PT BOMBA AUTOFERRANTE DE CANAL LATERAL Manual de utilização e manutenção .................................................................................................... pág. 77
SV SJÄLVFYLLANDE PUMP MED SIDOKANAL Bruks- och underhållsanvisning ............................................................................................................... sid. 85
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Ed.: 03 Rev.: 0
29/12/2009
Serie di macchine / Série de machines/Σειρά μηχανημάτων / Maschinen-Baureihen / Series machines / Machinery series / Serie de máquinas / Série samostatných strojů / Serijenaprav / Série de máquinas / Pumpserier:
EEM, ENM, ENT, ALM, ALT
Serie di quasi-macchine / Série de quasi-machines / Σειρά μερικώς ολοκληρωμένων μηχανημάτων / Baureihen der unvol-lständigen Maschinen / Series niet voltooide machines / Partly completed machinery series / Serie de cuasi máquinas / Série strojů k vestavbě / Serije delno dokončanih naprav / Série de quase-máquinas / Inbyggnadspumpserier:
EEMQ, ENMQ, ENTQ, ECC, ALMQ, ALTQ, ALCC
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GB USER AND MAINTENANCE MANUAL
Translation of the original instructionsReproduction, for any purpose, of parts of the text or of the drawings is prohibited
without prior written consent from the manufacturer.
WARNING concerning machineryConsult carefully before installing the machinery.
WARNING concerning partly completed machineryConsult carefully before incorporating the partly completed machinery. When rea-
ding, omit information relative to parts that are not present. Comply with all applica-
ble general safety criteria, to guarantee safe use of the machinery in which the partly
completed machinery is incorporated..
IMPORTANTthe machinery and partly completed machinery described herein must only be
used by persons with appropriate knowledge of their use. They must not be left
in a place accessible to children or to persons that might use them in an inap-
propriate and, consequently, potentially dangerous manner. They must be used
exclusively in compliance with the intended use declared by the manufacturer
and in compliance with the safety specifications indicated in this manual. They
must always be supervised during use.
Chapter 9 and relative subchapters, printed in italics, contain information for
maintenance exclusively for use by qualified technicians and must be performed
using appropriate personal protective equipment.
This manual describes the use of the pump in compliance with the design specifi-
cations and illustrates the technical specifications, methods of installation, use and
maintenance and information concerning residual risks related to use. The manual
must be considered part of the pump and be kept for future consultation for the
entire useful life of the pump.
The manufacturer shall not be held responsible in cases of improper use of the pump,
use contrary to specific national regulations, installation not in conformity with the
declared specifications, faults in the power supply, unauthorized modifications and
operations, use of non-original spare parts or parts not relative to the specific model,
total or partial failure to comply with the instructions indicated herein.
CONTENTS1 – DESCRIPTION OF SYMBOLS USED - GLOSSARY .............................................................. 45
2 – USE OF THE MACHINERY/PARTLY COMPLETED MACHINERY ................................... 45
2.1 – Specifications of pumped liquid ......................................................................... 45
2.2 – Environment of use .................................................................................................. 46
3 – TECHNICAL DESCRIPTION ........................................................................................................ 46
3.1 – Specifications .............................................................................................................. 46
3.2 – List of components................................................................................................... 46
3.3 – Maximum priming height ..................................................................................... 47
3.4 – Pumping direction .................................................................................................... 47
3.5 – Shaft sealing devices ............................................................................................... 47
3.6 – Optional accessories available............................................................................. 47
4 – INSTRUCTIONS FOR INSTALLATION AND USE ................................................................. 47
4.1 – Handling ....................................................................................................................... 47
4.2 – Installation and use .................................................................................................. 47
4.2.1 – Preliminary operations .................................................................................. 47
4.2.2 – Assembling the hoses .................................................................................... 48
4.2.3 – Electrical connection – general instructions ........................................ 48
4.2.3.1 – Connection of single-phase and three-phase pumps ........... 48
4.2.3.2 – Connection of direct current pumps .............................................. 48
4.2.4 – Starting and stopping .................................................................................... 49
4.3 – Washing and storage............................................................................................... 49
4.4 – Use of the by-pass (optional device) ................................................................ 49
4.5 – Demolition ................................................................................................................... 49
5 – INFORMATION ON RESIDUAL RISKS..................................................................................... 49
5.1 – Contact with moving parts ................................................................................... 49
5.2 – Temperature of accessible surfaces .................................................................. 49
5.3 – Risks caused by spattering and leakage of fluids ........................................ 49
5.4 – Residual risks caused by faulty operation....................................................... 50
6 – TROUBLESHOOTING .................................................................................................................. 50
7 – DECLARATIONS ............................................................................................................................ 51
8 – WARRANTY ..................................................................................................................................... 51
9 – NOTES FOR THE SERVICE TECHNICIAN (reserved for qualified technicians) ............. 51
9.1 – Disassembling the hydraulic part of the pump ............................................... 51
9.2 – Assembling the hydraulic part of the pump ..................................................... 51
9.2.1 – Replacing the oil seal (bronze models type 20 and 50) ........................ 51
9.2.2 –Replacing the oil seal (bronze models type 25-30-35-40) .................... 51
9.2.3 – Replacing the mechanical seal .................................................................... 52
9.3 – Replacing the brushes ............................................................................................. 52
1 – DESCRIPTION OF SYMBOLS USED - GLOSSARY
Safety hazard
Danger of electric shock
Danger of damaging the pump
• Bronze: in this document, this term is used to describe Delta C type copper alloy,
which is common practice in the self-priming pump sector.
• The series of products EEMQ, ENMQ, ALMQ, ENTQ and ALTQ are partly com-
pleted machinery identical, respectively, to the machinery of series EEM, ENM,
ALM, ENT and ALT, except for the fact that they are supplied without the switch
and cable for connection to the power supply but provided with an electrical
terminal block. In the rest of the manual, reference will only be made to the
series without the suffix –Q. When switch and cable are mentioned this refers to
the completed machinery, while when terminal block is mentioned this refers to
the corresponding partly completed machinery.
• The term “series ALCC” refers to the pumps AL 12/20, AL 24/20, AL 12/25, AL
24/25, AL 24/40.
• The type of power supply is indicated in the box identified by the word
“Motore” in the pump ratings plate. 1~ means “single-phase alternating cur-
rent”, 3~ means “three-phase alternating current” and means “direct
current”.
2 – USE OF THE MACHINERY/PARTLY COMPLETED MACHINERYThe machinery or partly completed machinery is a self-priming pump of “side
channel” type. It has been designed and manufactured specifically for transferring
and handling liquids, thanks to some important features:
• very rapid self-priming capacity, i.e. suction of air contained in the suction hose
to start pumping;
• no damage to the pump if the liquid in the suction tank finishes;
• possibility of reversing the flow of liquid (for models supplied with alternating
current).
Although it has been designed for professional use, it can also be used in a
domestic environment, providing the user has become acquainted with its use, by
carefully reading the instructions contained in this manual.
2.1 – PROPERTIES OF PUMPED LIQUID
the liquid to be pumped:
-must have no hard suspended particles (sand, gravel, etc.) which can cause rapid
wear of internal parts. If the liquid to be pumped has this risk factor, install a suitable
filter in the suction hose.
- must not be aggressive towards the materials with which it comes into con-
tact, i.e.:
1) the material forming the pumping body (bronze for series EEM, ENM, ENT, ECC -
AISI 316 stainless steel for series AL);
2) the material of which the shaft is manufactured (AISI 316 stainless steel);
3) the materials of which the gasket and the sealing device are manufactured (see
Chapter 3.5).
4) (only for models with by-pass) acetalic resin.
-must have suitable viscosity: these pumps are not suitable for very viscous liquids
(such as honey). For series ENM, ENT, ALM, ALT pumps, consider as an indication
of maximum viscosity a mineral oil type SAE 30 at a temperature of 40° C; all other
series are suitable for liquids with viscosity similar to water.
- must have a maximum fluid density of: for series ENM, ENT, ALM, ALT pumps: 1.1
g/cm3; for other series: density similar to water.
- must have a minimum temperature of: -15° C, in any case above the freezing
temperature of the liquid to be pumped.
WARNING
WARNING
"
- must have a maximum temperature of: models without by-pass: depending on
the rubber used to manufacture the gaskets: 90° C (NBR rubber, which is standard
unless otherwise indicated on the pump), 110° C (EPDM rubber), 130° C Viton rub-
ber; models with by-pass: 90° C.
Examples of use of the series with bronze pump body (series EEM, ENM, ENT,
ECC)
Water, sea water, gas oil, oil, soaps; in the European Union pumps with bronze pum-
ping body are generally not considered suitable for use with food products, such
as milk or olive oil (ref. standard UNI EN 13951). Application in the food sector is
subordinate to checking suitability of the pumps with the provisions of the specific
HACCP plan drawn up by the user.
Examples of use of series with AISI 316 stainless steel pump body, material suita-
ble for foods and with excellent resistance to corrosion and abrasion (series AL)
- liquid foods, such as wine, vinegar, olive oil, milk; for these uses appropriate
methods of washing and disinfecting the pump must be adopted, according to
type of liquid (see Chapter 4.3);
- compatible corrosive liquids (such as fungicides or liquid fertilizers)
- the same liquids permitted for bronze pumps, in this case ensuring a much longer
useful life.
Use of the pump in environments in which there is
danger of explosion or fire (as defined by the law)
is prohibited; in particular, do not use with petrol,
acetone, solvents, etc.
2.2 – ENVIRONMENT OF USE- Ventilated, clean and dry closed environment.
- Normal or marine atmosphere, ambient temperature between –15 °C and 40 °C
and maximum relative humidity 80%.
- Maximum installation altitude: 1000 meters above sea level.
3 – TECHNICAL DESCRIPTION
3.1 - SPECIFICATIONSThe pump can perform suction of liquid from one port (suction port), sending it to
the other port (discharge port); the essential parameter characterizing a pump is
capacity Q (quantity of liquid transferred in a given time); the speed of the pum-
ping operation depends on this.
The capacity of a pump is not fixed, but depends on the total manometric head H
required by the installation, which is the sum of two contributions:
1) difference in height (measured vertically) between the level of liquid in the tank
of destination and that of the tank or origin;
2) energy losses caused by liquid flow in pipes, valves, fittings, and other elements
inserted along its path.
Tab. A indicates the capacity (in litres per minute) as a function of total manometric
head (in metres) for the various pump types. The same table also indicates the
value of the maximum head Hmax developed by the pump (expressed in bar, unit
of pressure measurement), which is reached when the discharge port is closed, and
the maximum equivalent A-weighted sound pressure level (LeqA) obtained at 1
metre from the surface of the pump operating with water at 20° C.
3.2 - LIST OF COMPONENTSTab. B contains the list of all components, and refers to Figs. 1, 2, 3A, 3B, 4, 9.
- fig. 1: exploded drawing of single-phase electric pumps type ENM 20, ENM 20 L,
ALM 20, ALM 20 L, EEM 20, EEM 20 L and three-phase electric pumps type ENT 20,
ENT 20 L, ALT 20 e ALT 20 L.
- fig. 2: exploded drawing of single-phase electric pumps type ENM 25, ENM 25S,
ENM 30, ENM 35, ENM 40, ENM 50, ALM 25, ALM 30, ALM 40, ALM 50, EEM 25, EEM
30, EEM 35, EEM 40 and three-phase electric pumps type ENT 25, ENT 25S, ENT 30,
ENT 35, ENT 40, ENT 50, ALT 25, ALT 30, ALT 40, ALT 50;
- fig. 3A: mechanical seal; Fig. 3B: the various systems adopted for fixing the rota-
ting part of the seal;
- fig. 4: components of the motor part of direct current pumps; the pumps ECC
12/20, ECC 24/20, AL 12/20, AL 24/20 have the motor part as shown in Fig. 3 and
the pump part as shown in Fig. 1; the pumps ECC 12/25, ECC 24/25, ECC 24/40, AL
12/25, AL 24/25, AL 24/40 have the motor part as shown in Fig. 3 and the pump
part as shown in Fig. 2.
- fig. 9 replaces the parts ref. 18, 19, 20 of Figs. 1 and 2 in the partly completed
machinery of series EEMQ, ENMQ, ALMQ, ENTQ and ALTQ.
TYPE1 m 5 m 10 m
Hmax (bar)
LeqA (dB)
Weight kg
TYPE1 m 5 m 10 m
Hmax (bar)
LeqA (dB)
Weight kg
EEM 20 L, ENM 20 L, ENT 20 L 14 4 0.7 <70 5.2 ECC 24/25 67 50 26 1.9 75 7.1
EEM 20, ENM 20, ENT 20 32 27 21 2.7 77 5.2 ECC 24/40 166 125 70 2.0 80 14.1
EEM 25, ENM 25, ENT 25 53 38 16 1.3 71 7.9 ALM 20 L, ALT 20 L 11 2 0.6 <70 5.2
ENM 25S, ENT 25S 97 92 85 4.8 83 13.4 ALM 20, ALT 20 32 27 21 2.7 77 5.2
EEM 30, EEM 35 89 68 38 1.5 74 10.6 ALM 25, ALT 25 43 28 8 1.2 71 7.8
ENM 30, ENT 30 89 71 43 1.6 74 12.1 ALM 30, ALT 30 89 80 70 4.2 83 13.3
ENM 35, ENT 35 89 71 43 1.6 74 12.2 ALM 40, ALT 40 137 112 76 1.6 77 14
EEM 40 149 115 66 1.6 77 11.3 ALM 50 205 176 140 2.9 82 21.3
ENM 40, ENT 40 149 119 78 1.7 77 14.1 ALT 50 205 176 140 2.9 82 19.4
ENM 50 250 215 167 2.6 84 22.7 AL 12/20 23 16 5 1.4 75 4.1
ENT 50 262 227 180 2.7 84 20.8 AL 24/20 26 20 9 1.6 76 4.1
ECC 12/20 23 16 5 1.4 75 4.1 AL 12/25 49 36 17 1.3 74 7
ECC 24/20 26 20 9 1.6 76 4.1 AL 24/25 54 42 23 1.5 75 7
ECC 12/25 62 44 14 1.4 74 7.1 AL 24/40 146 112 65 1.5 80 14
Data obtained with water at 20° C – Tolerances: standard ISO 2548 for Class C mass produced pumps
Tab. A
#
3.3 – MAXIMUM PRIMING HEIGHTThe maximum priming height is the maximum difference in level between the pump
and the level of the liquid to be pumped with which it can perform suction of air from
the suction hose and start pumping.
With water at 20° C this value can reach 6 metres, but it depends on the quantity
of liquid present inside the pump during priming; this quantity depends on the
installation methods of the pump and on the configuration of the hoses. To achieve
maximum priming performances, comply with the following installation measures:
1) Discharge hose: during priming the liquid contained in the pump is pushed
outwards through the discharge port; therefore, the quantity of liquid decreases,
causing reduced priming; avoid this by positioning the discharge hose so that liquid
that has flowed out returns inside the pump, for example, by pointing the initial part
upwards with a difference in level of 50 cm.
2) Suction hose: the initial part pointing upwards with a difference in level of 20 cm
increases the quantity of liquid that remains inside the pump after it is stopped.
3.4 – PUMPING DIRECTIONPumps with alternating current motor are two-way: by reversing the direction of
rotation of the motor the direction of liquid flow is reversed. For this purpose, machi-
nes are equipped with a 3-way switch: 0 = off, 1 = on, 2 = on with liquid flowing in
the opposite direction to position 1. The typical pumping directions in single-phase
machinery are described in Fig. 8, lines 2 and 3. In three-phase machinery the direc-
tion depends on the connection to the power supply.
In direct current partly completed machinery, the pumping direction is fixed and is
unrelated to connection of the power supply cables to the terminal block. The typical
pumping direction is described in Fig. 8, line 1. The typical pumping directions are not
binding, and in some examples could be inverted.
3.5 - SHAFT SEALING DEVICESThe impeller, i.e. the rotating mechanical part that allows the pump to operate is
activated through a shaft by the external motor; the pump body has an opening
for the shaft to pass through. The “shaft seal” is the device that prevents liquid from
leaking through the space between the shaft and the opening in the pump body.
Two types of seal are adopted:
- ring seal (oil seal) with stainless steel spring; the standard seal used in bronze
versions is the NBR rubber oil seal, unless otherwise specified by a label affixed to
the pump;
- mechanical seal (Fig. 3A); the standard type of seal used in the stainless steel series
AL is the ceramic/graphite/ AISI 316/ NBR rubber version, unless otherwise specified
by a label affixed to the pump; it greatly increases the number of hours for which
the pump can operate before requiring maintenance operations and does not cause
wear on the shaft.
Various types of seals are available on request (Viton oil seal, silicon carbide mecha-
nical seals and/or parts in EPDM rubber, Viton, Teflon) to adapt to the majority of
requirements linked to temperature, corrosion and abrasion. Should you require
assistance, please contact our technical department.
3.6 - OPTIONAL ACCESSORIES AVAILABLE• Handle and truck for easy transport.
• Manual by-pass to adjust capacity and head; the relative instructions for use are
included in this manual.
• Discharge plug or cock, to drain part of the pump body without removing the
hoses.
• Filters, to prevent foreign bodies from entering.
• Hose kit.
• Hose fittings in nylon or stainless steel (for series AL pumps).
4 - INSTRUCTIONS FOR INSTALLATION AND USE
4.1 – HANDLINGCheck the weight of the pump indicated on the ratings plate and adopt methods in
accordance with national safety regulations relative to manual handling of loads. If
necessary use lifting systems, lift trucks, personal protection equipment for manual
handling of loads and to prevent the danger of crushed limbs. If the pump is to be
moved frequently, accessories (handle and truck) are available to facilitate handling.
Do not lift or transport the pump using the power cable, the hoses or projecting parts (i.e. the inverter or terminal box). Lift the pump by firmly holding the metal part.
4.2 - INSTALLATION AND USE
To install machinery supplied completed, strictly follow the procedures indica-
ted below. To incorporate partly completed machinery, consider the following
instructions within the limits of their applicability. Use them to draw up instruc-
tions for use of the final machinery. All mechanical and electrical installations to
be performed on unprotected parts must be carried out exclusively by qualified
technical personnel adopting personal protective equipment to protect hands
and limbs against crushing, to protect from sprays and splashes of liquid and to
protect against electrical shock. These must be selected in relation to specific risk
assessment for the installation to be carried out.
Do not start the pump before having completed the installation.
4.2.1 – PRELIMINARY OPERATIONS- Remove the pump from the packaging and check that all parts are intact: any
breakages that occur during transport can cause dangers of mechanical or electrical
nature.
1 Motor fan 14 Seal washer 28 Conical gasket
2 Fan cover 15 Tab 29 Threaded sleeve
3 Front bearing18 Capacitor (single-phase pumps only
30 Hex head screw
4 Pump flange 31 Hex head hollow screw
5 Counterflange19A
Toggle switch
(series EEM only)
61 Rear guard
6 Brush holder 62 Rear bearing
7 Brush19B
Rotary switch (other single-phase and three-phase series)
63 Casing with stator
8 Counterflange gasket 64 Shaft with rotor
9A Stainless steel Seeger ring 20 Inverter box 65 Rear internal part
9B Stainless steel seal ring 21 Terminal box 66 Front internal part
9C Brass seal ring 22 Terminal block 67 Seal
9D Seal spacer 23 Stud 67A Mech. seal rotating part
10 Pump body 24 Cable clamping bracket 67B Mech. seal fixed part - counterface
11 Pump cover 25 Straight fitting
12 O-ring 26 Curved fitting 67C Mech. seal fixed part - shroud
13 Impeller 27 Ring nut 68 Motor seal
Tab. B
WARNING
WARNING
$
- Assemble the handle (Fig. 5) or the truck (Fig. 6), if provided. During transport, the
pump must be disconnected from the power supply. After transport, the truck must
be positioned on a completely horizontal surface. Check that accidental movements
of the truck cannot cause danger.
- Position the pump in a dry place (the pump is not submersible) on a horizontal surfa-
ce; leave an empty space of at least 10 cm in front of the motor cooling fan; secure the
feet with bolts to prevent movement or falling caused by vibrations during operation,
to prevent people from tripping over hoses or the power cable. Make the connections
without damaging the pump.
Never hang or fix the pump using the power cable.
- Fill the pump body with liquid to be pumped through one of the ports, preventing
the liquid from leaking out either through this port or the other port; as the pump is
self-priming, this operation is only necessary the first time, or if the pump has been
emptied; in fact, when it stops sufficient liquid remains inside for subsequent priming.
Traces of lubricant (cutting fluids, greases) may be present on the inner walls of the
pumping body. If these substances can pollute the liquid to be pumped (i.e. food
substances), initial pumping must be performed following the cleansing procedure
described in Chapter 4.3.
Do not operate the pump dry.
4.2.2 – ASSEMBLING THE HOSES
- As shown in Fig. 5 or Fig. 6, screw the hose fittings to the ports; these are provided
standard with bronze pumps, on request (in nylon or stainless steel) for series AL
pumps, after checking that the gaskets are present in the fittings; the assembly
shown is only indicative, the two fittings, straight and curved, can be inverted.
- Provide a pair of hoses of suitable length and with the same internal diameter as the
external diameter of the fittings. The hose must be flexible spiral, made of a material
suitable for the type and temperature of the liquid to be pumped, resistant to the
internal vacuum and with a higher operating pressure than the pressure generated
by the pump (equal to Hmax in Table A).
Insert the ends of the hoses into the hose fittings; secure the connection using a
hose clamp. It is not necessary to install a check valve; if the liquid can contain hard
suspended particles install a suitable filter in the suction hose to retain them; the
hose must not exert excessive forces on the pump. Avoid excessive bending of the
hoses to avoid kinks.
Insert the free end of the suction hose into the receptacle from which liquid is to be
drawn, at a depth at least twice the diameter of the hose and at the same minimum
distance from the bottom. Insert the free end of the discharge hose into the recep-
tacle to receive the liquid.
The discharge hose must be fixed, without compressing it, to prevent
extraction from the collection receptacle during start-up or operation,
which would wet and contaminate the surrounding environment. In
the event of use with dangerous liquids, wear personal protective equipment
selected according to the specifications of the liquid, to prevent danger of conta-
mination or contact with exposed body parts.
4.2.3 – ELECTRICAL CONNECTION – GENERAL INSTRUCTIONSThe inverter box (ref. 20) and the terminal box (ref. 21) contain electrical
parts; they must be disassembled exclusively by a qualified technician,
in compliance with safety regulations.
Before making the electrical connections, check cables, plugs and sockets for dama-
ge. Electrical connections must be protected against dampness and sprays of liquid.
Only use cables and components in conformity with the safety provisions of Directive
2006/95/EC and suitable for the current absorbed by the motor.
Pumps with three-phase and direct current motors are not provided with overload
protection; pumps with single-phase motors are provided with an internal overlo-
ad protection device and automatic reset only if the words “Protetta da sovraccari-
co - Overload protected” appear on the yellow label affixed to the pump.
4.2.3.1 – CONNECTION OF SINGLE-PHASE AND THREE-PHASE PUMPSRequired specifications of the power supply network
• voltage and frequency coinciding with those indicated on the pump ratings plate
(tolerances: 10% on voltage and 2% on frequency);
• provided with an efficient earthing system and equipped with a high sensitivity
differential switch (30 mA) installed in line;
• protected against overcurrents;
• (if the pump is not already equipped with this) equipped with overload protection
system calibrated to the current (A) indicated on the pump ratings plate;
• (for models with cable without plug and models with terminal block) equipped
with a power isolation device.
Models with switch, cable and plug
• select a power socket compatible with the plug, equipped with earthing device,
away from possible sprays of liquid and in an accessible position.
• Make sure the switch is positioned to off (0).
• Arrange the cable so that it cannot be knocked or tripped over.
• Insert the plug into the power socket.
• If an extension cable is required, it must be selected according to the current regu-
lations and the data indicated on the pump ratings plate; the electrical connection
must be protected against possible sprays of liquid.
Models with switch and cable, without plug
Connection to the power supply network must be performed exclu-
sively by qualified technicians, in compliance with the regulations
regarding electrical installations and with all the safety rules applicable
to the type of operation.
The power supply must be disconnected before making the connection. First connect
the earth conductor, followed by the line conductors.
Models with terminal block
Connection to the power supply network must be performed exclusively
by qualified technicians, in compliance with the regulations regarding
electrical installations and with all the safety rules applicable to the type
of operation. The power supply must be disconnected before making the connec-
tion. The power cable must be provided with earth conductor.
Connection of the cable to the partly completed machinery is described below with
reference to Fig. 9.
• Remove the cover of the terminal box (ref. 21) after having unscrewed the fixing
screws.
• Insert the power cable through the ring nut (ref. 27), the conical gasket (ref. 28),
the threaded sleeve (ref. 29) of the terminal box and clamp the ring nut.
• Connect the earth conductor to the motor casing at the stud ref. 23 identified by
the symbol , using the bolts provided.
• Connect the power conductors to the terminal block (ref. 22) following the
instructions indicated in the label inside the cover of the terminal box.
• Use the cable clamping bracket ref. 24 to fix the power cable, the right way up
or overturned depending on the diameter of the cable; check that it is secured
effectively against pulling and twisting of the cable.
• Replace the cover of the terminal box and fasten it using the screws removed
previously.
4.2.3.2 – CONNECTION OF DIRECT CURRENT PUMPS
Required specifications of the power supply network
• voltage coinciding with that indicated on the ratings plate of the partly comple-
ted machinery (tolerances +10% - 10%);
• protected against overcurrents;
• equipped with overload protection system;
• equipped with a power isolation device.
• the partly completed machinery is designed to be supplied by a
battery; if another type of generator is used, assess the risk of dangerous
voltages being present on accessible metal parts of the partly completed
machinery; in particular, bear in mind that the negative pole of the terminal block
supplying the partly completed machinery is connected to the casing of its motor.
Connection instructions
• Remove the terminal box (ref. 21), after having unscrewed its fixing screws.
• Insert the power cable through the cable grommet.
• Connect it to the terminal block complying with the polarity (+, -) indicated.
• If it is necessary to secure the cable against pulling or twisting, take the necessary
measures.
• Replace the terminal box and fasten it using the screws removed previously.
WARNING
WARNING
%
4.2.4 – STARTING AND STOPPING
• Do not start the pump before having completed installation.
• Do not start the pump with wet hands or while standing on wet surfaces.
• Under no circumstances insert fingers or other body parts or objects through
the ports: the pump contains moving parts.
Check that the hoses are positioned correctly. If the pump was supplied with a switch,
start it by switching this to the on position corresponding to the direction of pumping
required. If the pump was supplied with the terminal block, start it by connecting it
to the power supply.
In this phase, take great care that there are no leaks or sprays of liquid
from the installation. It these are present, stop the pump immediately
and take action to eliminate them.
The pump must not run with the hoses completely closed for more than one
minute.
After a short period required for priming, the pump will start to transfer liquid.
If pumping is not obtained and the suction hose bubbles air into the liquid to be
sucked up this means that the pump is pumping in the opposite direction: in this
case stop the pump and reverse the pumping direction or stop the pump and invert
connection of the hoses to the ports.
Operation must always be supervised; check that
the following do not occur: overheating of the
motor surface, reduction in speed or stopping, abnormal noises or other events
that indicate malfunctioning. In this case, stop the pump immediately, remove the
plug (where present) from the socket and consult Chapter 6.
The noise produced by bronze pumps type 20, 25, 30, 35, 40 if they are run when dry
(to be avoided at all costs) does not indicate a fault, but is caused by the fact that in
these models the impeller slides on the shaft to facilitate maintenance.
To stop the pump, position the switch to stop (0) or disconnect the power supply.
After it is switched off, the pump remains filled with liquid,
which is essential for priming; if there is any chance of the
ambient temperature dropping to below the freezing point of the liquid, empty
the pump body to avoid breakage.
4.3 – WASHING AND STORAGEBefore removing the hoses discharge any pressure present inside the
pump. If accessible surfaces are hot (see Chapter 5.2) wait for the pump
to cool before handling it or use appropriate gloves.
If the pump is used for dangerous substances, the user is responsible for defining
the procedures for handling, washing, storing and disposal of waste fluids in
compliance with the safety regulations in force for the specific substances treated.
If the pumped liquid has no particular problems, (i.e. water, sea water or soap), in the
event of an extended period of disuse, wash the inner walls of the pump by pumping
clean water, empty completely, dry the outer surfaces with a soft cloth, coil the elec-
tric cable and hoses and store in a dry and protected area.
Cleansing procedure
This allows deeper cleaning than the procedure described previously and can be
used in many cases. In uses with foods it is performed during installation and as part
of the wash cycle.
• Prepare a detersive solution in a receptacle (i.e. common dishwashing liquid
diluted with clean hot water at 40-50° C).
• Insert the suction and discharge hoses of the pump into the receptacle and recir-
culate the liquid for 5 minutes.
• Pump clean water until complete rinsing is obtained.
Use with slightly perishable food substances (vegetable oil, wine, vinegar)
Before and after use:
• Carry out the cleansing procedure;
• use the pump to recirculate a suitable sanitizing and disinfecting solution (i.e.
based on peracetic acid) for an adequate time;
• rinse the inside of the pump body by pumping clean water until the sanitizing and
disinfecting solution has been completely eliminated.
Before use, perform the start-up procedure, discarding a first fraction of liquid.
Dispose with the fluid used for washing and the discarded liquid from start-up in
compliance with the current provisions of law.
In the specific case of use with vegetable oils, if the pump is to remain in disuse for
a short period of time and subsequently used again for the same type of oil, it can
simply be emptied and the ports capped.
Use with highly perishable food substances (such as milk)
Wash before use, at each time interval established by the HACCP protocol applied
and after use, disassembling the pump, cleansing and disinfecting its parts with
methods depending on the type of liquid. This operation must be carried out by
qualified personnel experienced in performing the pump disassembly and reassem-
bly procedures.
4.4 - USE OF THE BY-PASS (optional device)The by-pass is a device to adjust capacity and head of the pump and is located on the
outside in the form of a knob; it can be rotated counter-clockwise to reduce the maxi-
mum capacity to around half and the maximum head by around a quarter. During
the priming stage close the by-pass by rotating the knob completely clockwise, as
priming capacity is greatly reduced with the by-pass open.
4.5 - DEMOLITIONAt the end of its useful life the pump must be demolished, in strict compliance with
the standards in force in the country of use. Do not neglect any residue of liquid
present inside the pump body.
Only EU countries
The pump belongs to the category of electric and electronic equipment
(EEE). The symbol shown here means that it cannot be disposed of as
domestic waste. At the end of its useful life the owner must deliver the
pump to a WEEE collection point, where it will be subjected to recycling.
For more information, contact the relevant local authority department or the store
from which the pump was purchased.
5 – INFORMATION ON RESIDUAL RISKS
5.1 – CONTACT WITH MOVING PARTSDo not insert objects through the holes in the fan cover (ref. 2), which covers the
motor cooling fan.
5.2 - TEMPERATURE OF ACCESSIBLE SURFACESIn typical conditions of use, the outer surfaces of the motor part can reach
temperatures in excess of around 40° C higher than the surrounding
ambient temperature. The outer surfaces of the pumping body reach the
temperature of the pumped liquid, and can therefore be very hot or very cold. In the
event of these temperatures representing a danger, the user must adopt suitable
protective measures (enclose the pump with barriers, handle using suitable gloves).
5.3 - RISKS CAUSED BY SPATTERING AND LEAKAGE OF FLUIDS
Undesirable leakage or spraying of liquid may occur, for example, in the following
cases:
- installation procedure carried out incorrectly;
- wear and tear of hoses;
- wear and tear of sealing device (resulting in spattering of liquid from
the space between the flange and the pump body) or of other gaskets (O-ring or
counterflange gasket);
- corrosion of the pump body;
- incorrect reassembly after maintenance;
- pumping of cold liquids, with water vapour condensation forming on the outer
surface of the pumping body and consequent dripping.
These events cause a wet environment (with danger of electric shock, danger of
slipping, etc.) and the risk of persons, animals or objects being struck by jets of
liquid. In particular, maximum caution must be taken when pumping liquids that
are flammable, corrosive, at high temperature or in any way dangerous for living
things or for the environment. The user must assess these risks and if necessary
provide appropriate protection from jets of liquid (i.e. screens) and collection ves-
sels in a suitable position. Liquid from leakages must be removed and disposed of
correctly and safely.
WARNING
WARNING
!&
5.4 - RESIDUAL RISKS CAUSED BY FAULTY OPERATIONThe pump is not provided with audible or visual alarms to indicate breakages or
malfunctioning. Therefore, the user must take suitable measures to avoid damages
(i.e. flooding) caused by failure or faulty operation of the pump (i.e. installation of
alarms, back-up pumps, etc.).
6 - TROUBLESHOOTING
Problem Possible cause Remedy
Motor not turning and no humming sound
No electricity Check the power supply
System overcurrent or overload protection triggered
Reset the protective device; if the problem persists contact a qualified technician
Plug not inserted Insert the plug
Power connections interrupted or incorrect electric connection
Contact a qualified technician
Switch positioned to “off” Switch to the correct “on” position
Internal overload protection triggered (only for pumps provided with this)
The protection is reactivated automatically; if the protection is triggered again this means the application is too heavy for the pump
Electrical fault Contact a qualified technician
Motor making humming sound but not turning
Impeller blocked Contact a qualified technician
Electrical fault Contact a qualified technician
Motor turning at low speed and pump has reduced capacity
Incorrect supply voltage Supply the pump with the voltage indicated on the ratings plate
Overload Application too heavy for the pump
Motor turning but reduced or no liquid capacity
Suction hose end incorrectly positioned See Chapter 4.2.2
Infiltration of air or leakage of liquid Check hoses, tightness of hose clamp, fitting gaskets
Hoses or filters (if provided) clogged Clean hoses and filter
Pump clogged Contact a qualified technician
Pump worn Contact a qualified technician
Operating head too high Check the head
Pump not priming
Excessive suction height Check the suction height
Pump not filled with liquid Fill the pump with liquid
Suction hose end incorrectly positioned See Chapter 4.2.2
Pump incorrectly positioned See Chapter 4.2.1
Infiltrations of air Check hoses, tightness of hose clamp, fitting gaskets
Wear and tear on gaskets or seal Contact a qualified technician
Pump worn Contact a qualified technician
Pump bubbling air in the suction tank
Incorrect pumping direction Reverse pumping direction
Motor overheating
Overload Application too heavy for the pump
Excessive liquid temperature Application too heavy for the pump
Electrical fault Contact a qualified technician
Abnormal noise during pumping
Foreign bodies have entered the pump Contact a qualified technician
Impeller broken Contact a qualified technician
Impeller seized Contact a qualified technician
Bearing worn Contact a qualified technician
Pump leaking Wear and tear on gaskets or seal Contact a qualified technician
!'
7 – DECLARATIONSThe certification below is based on the declarations drawn up by the manufacturer in
accordance with Directive 2006/42/EC of reference for the machinery and partly com-
pleted machinery described in this manual. A copy of this declaration is available from
the manufacturer and is supplied on request or always in the event of supplying complex
installations. The certification below summarises the principles of conformity indicating
the essential elements established by this Directive.
The company TELLARINI POMPE s.n.c di G. Tellarini & C. with headquarters in via
Majorana, 4 - Lugo (RA) – Italy, declares under its sole responsibility that:
(Declaration of Conformity) the side channel self-priming pumps series EEM, series
ENM, series ENT, series ALM, series ALT to which this certification refers comply with
the essential safety requirements established by:
- Machinery Directive 2006/42/EC and national implementation provisions
- Electromagnetic Compatibility Directive 2004/108/EC and national implementation
provisions
- Low Voltage Directive 2006/95/EC and national implementation provisions
(Declaration of Incorporation) the partly completed machinery relating to side
channel self-priming pumps series EEMQ, series ENMQ, series ENTQ, series ECC, series
ALMQ, series ALTQ, series ALCC, to which this certification refers, complies with the
essential safety requirements established by:
- Machinery Directive 2006/42/EC and national implementation provisions
- Electromagnetic Compatibility Directive 2004/108/EC and national implementation
provisions
- (with reference to the partly completed machinery included in the field of appli-
cation) Low Voltage Directive 2006/95/EC and national implementation provisions,
excluding the requirements associated with connections to be made to connect the
terminal block to the power supply source.
It declares that commissioning of the partly completed machinery must not take
place until the final machinery in which it is to be incorporated has been declared to
be in conformity (if necessary) with the provisions of Directive 2006/42/EC.
LUGO, 29/12/2009 The legal representative
and technical file holder
Giovanni Tellarini
8 – WARRANTYThe pump is covered by warranty for a period of two years from the date of purchase
by the final user. In the absence of documentation proving the date, the warranty
period starts from July 1st of the year of manufacture, indicated on the ratings plate.
The warranty expires in any case after 3 years from July 1st of the year of manufacture.
The warranty covers all manufacturing and material defects confirmed by the
manufacturer and consists in the repair or free replacement of the pump by the
manufacturer. Any repairs performed under warranty do not modify the expiry date
of this warranty.
The warranty does not cover damages caused by improper use, by faulty electrical
supply, by use that is not in conformity with the instructions contained in the “user
and maintenance manual”. Moreover, it does not cover any damages caused or tam-
pering performed by the user, maintenance operations performed incorrectly (also
with the use of non-original spare parts) and wear related to normal use (in particular,
seals, bearings, capacitors, brushes).
9 – NOTES FOR THE SERVICE TECHNICIAN Chapter 9 and the relative subchapters contain information for maintenance to be used
exclusively by qualified technicians.
9.1 - DISASSEMBLING THE HYDRAULIC PARTBefore disassembly and assembly operations, disconnect the equipment
from the power supply to prevent accidental starting with moving parts
exposed.
Internal parts can have sharp edges; therefore, they should be handled with
care wearing appropriate personal protective equipment.
Before disassembly discharge any pressure present inside the pump, wait for it to
cool, empty it and dispose of the liquid contained appropriately; if the pump is used
for dangerous substances comply with the safety regulations in force for handling of
these substances.
The references below can be found in Figs. 1, 2, 3A, 3B, 4 and 9 according to the indications
provided in paragraph 3.2.
- Unscrew the screws (ref. 30 or ref. 31) of the cover (ref. 11).
- Remove the cover.
- Remove the O-ring (ref. 12).
- Extract the impeller (ref. 13) as follows:
bronze models type 20-25-30-35-40: the impeller slides on the shaft (ref. 64), it can be
extracted simply using your fingers;
bronze models type 50 and all stainless steel models: the impeller is forced onto the
shaft; to remove it use an extractor with appropriately shaped claws (fig. 7); the hub of the
impeller is provided with two projections for this purpose (fig. 7); for stainless steel models
type 20 use the two projections present on the side of the pump body (fig. 7) for extraction.
- Remove the tab (ref. 15).
- Extract the pump body (ref. 10) from the shaft.
- (Only for bronze models type 20) extract the counterflange (ref. 5) from the pump body
and remove the gasket (ref. 8).
9.2 -ASSEMBLING THE HYDRAULIC PART(For bronze models type 20, first insert the counterflange ref. 5 and position the gasket
ref. 8);
- Insert the tab (ref. 15) in its seat
- Insert the pump body (ref. 10) along the shaft (ref. 64)
- Position the O-ring (ref. 12) in its seat on the pump body
Models with sliding impeller
- Insert the impeller (ref. 13) over the shaft using your fingers.
- Fit the cover (ref. 11) and insert the screws (ref. 30 or ref. 31), gradually and alternately
tightening opposite screws.
Models with forced impeller
The impeller is inserted using a hollow bar with internal diameter slightly larger than
that of the shaft.
- To prevent damaging the bearings, first remove the fan cover (ref. 2) and place the back
of the shaft (the end on which the motor fan ref. 1 is mounted) on a soft metal surface.
- Striking the impeller (ref. 13) in a central position using the hollow bar and a hammer,
move it towards the wearing surface, leaving 0.1 mm clearance.
- Fit the cover (ref. 11) and insert the screws (ref. 30 or ref. 31), gradually and alternately
tightening opposite screws.
- Strike the back of the shaft with a punch and hammer.
- Check that the impeller rotates freely rotating the motor fan (ref. 1) and fit the fan cover
(ref. 2).
9.2.1 – REPLACING THE OIL SEAL (bronze models type 20 and 50)- Remove the worn oil seal (ref. 67) from its seat (located in the counterflange ref. 5 for
models type 20 and in the pump body for models type 50) striking it using a solid drift of
suitable dimensions as shown in Fig. 23. (type 20) or Fig. 25 (type 50).
-Take an identical new oil seal and place it against the mouth of its seat as shown in Fig.
24 (type 20) or Fig. 26 (type 50) facing in the correct direction (the spring must be facing
the inside of the pump).
- Insert the oil seal in its seat striking it using a solid drift with a slightly smaller diameter to
that of the outer diameter of the oil seal until it has been completely inserted.
9.2.2 - REPLACING THE OIL SEAL (bronze models type 25-30-35-40)The pump body is produced in two pieces: pump body (ref. 10) and rear internal part (ref.
65), which is inserted into the pump body (Fig. 2 shows the two parts disassembled, Fig.
10 after assembly). To replace the oil seal (ref. 67) the rear internal part must be extracted
from the pump body.
- Place the edge of the pump body on two surfaces made of soft material (i.e. wood or
aluminium) or any other material, provided that two pieces of paper are placed between
surface and body (Fig. 11).
- Take a solid drift (with diameter 28-29 mm and length greater than 60 mm) and strike
the oil seal until it is extracted from its seat (Fig. 12).
- Place the oil seal against the edge of the rear internal part as shown in Fig. 13 and strike
it again with the solid drift and hammer; the internal part will be removed together with
the oil seal (Fig. 14).
- Place the pump body on a surface (Fig. 15); take an identical new oil seal and place it
against the mouth of its seat, facing in the correct direction (the spring must be facing
the inside of the pump).
- Insert the oil seal in its seat by striking it using a solid drift with a slightly smaller diameter
to that of the outer diameter of the oil seal until it has been completely inserted (Figs. 16
and 17).
-Place the rear internal part against the body (Figs. 18 and 20) facing in the correct
direction (Fig. 19).
- Insert the internal part into the body using a solid drift of appropriate dimensions (Figs.
21 and 22).
!(
9.2.3 - REPLACING THE MECHANICAL SEAL- Carry out the disassembly procedure without extracting the pump body; for models type
20 also remove the body (ref. 10), extracting it from the counterflange (ref. 5)
- Remove the fixing system of the rotating part of the mechanical seal (this can belong to
one of the types in Fig. 3B).
- Extract the rotating part of the seal (ref. 67A), the counterface (ref. 67B) and the shroud
(ref. 67C).
- Take an identical seal, separate shroud and counterface, clean the lapped races of the
rotating part and of the counterface with a soft cloth; degrease the housing in the pump
body and in the shaft, lubricate rubber parts with soap and water.
-Insert the shroud into the seat in the pump body, followed by the counterface.
- Insert the rotating part of the seal taking care that its rubber parts are not damaged
when passing over sharp parts.
- Remount the fixing system of the rotating part of the seal; for systems provided with
screws, clamp these so that the length of the rotating part is between 13 and 14 mm.
9.3 - REPLACING THE BRUSHESThe two brushes (ref. 7) provided in direct current pumps are sliding contacts subject to
wear and must be replaced periodically; a brush is completely worn when the brush spring
is bottomed out; when the brushes are worn operation first become irregular and then the
pump stops; to replace:
- remove the fan cover (ref. 2)
- unscrew the 2 screws on the brush holder (ref. 6) that connect the wires of the 2 brushes
to the motor winding;
- lift the springs that hold the brushes in place, extract them, replace them and connect
the wires using the 2 screws;
- remount the fan cover.
Recommended